Oxidations inositols

Base-catalyzed nitromethane cyclizadonof the thaldehyde generated by periodate oxidation of 1,3-O-cyclohexyhdene-myo-inositol affords the nitrodiol with l,4/3,3,5-coti iguration This is converted into the ct-marmosidase inhibitor, marmostadn A fEq 3 60 ... 

The power of the new spectrometer to reveal configurations of difficult cyclitols or sugars was first tested with mt/o-inositol (2), using deuterium oxide as solvent. At 60 or 100 MHz. the one equatorial and five axial protons appear to have different chemical shifts as shown by Lemieux in 1956 with a 40 MHz. instrument (14,15). However, since the five-proton axial signal could not be resolved, one could probably not have assigned the configuration 2 (which was already known from laborious chemical correlations extending over many years.)... 

Figure 1. Proton magnetic resonance spectra at 14.1, 23.5, and 51.7 kilo gauss (60, 100 and 220 MHz.) of myo-inositol in deuterium oxide.

Figure 1. Simplified schematic of receptor-mediated signal transduction in neutrophils. Binding of ligand to the receptor activates a guanine-nucleotide-binding protein (G protein), which then stimulates phospholipase C. Phosphatidylinositol 4,5-bis-phosphate is cleaved to produce diacylglycerol (DAG) and inositol 1,4,5-trisphosphate (IP3). DAG stimulates protein kinase C. IP3 causes the release of Ca from intracellular stores, which results in an increase in the cytosolic Ca concentration. This increase in Ca may stimulate protein kinase C, calmodulin-dependent protein kinases, and phospholipase A2. Protein phosphorylation events are thought to be important in stimulating degranulation and oxidant production. In addition, ionic fluxes occur across the plasma membrane. It is possible that phospholipase A2 and ionic channels may be governed by G protein interactions. ...

A. Inositol Phosphates.—Phosphatidyl inositol (71) is hydrolysed in mammalian tissues to wyo-inositol 1,2-cyclic phosphate (72).i myoinositol 1-phosphate (73) is released simultaneously but is not converted into (72) by the enzyme system. Periodate oxidation of (73) liberates orthophosphate quantitatively, the unstable dialdehyde phosphate (74) being an intermediate. Little or no orthophosphate is released from glucose 6-phosphate under the same oxidative conditions, and this reaction has been used to assay (73). 

Carless HAJ, Billinge JR, Oak OZ (1989) Photochemical routes from arenes to inositol intermediates the photo-oxidation of substituted cw-cyclohexane-3,5-diene-l,2-diols. Tetrahedron Lett 30 3113-3116. 

Carless HAJ, Oak OZ (1991) Total synthesis of (-)-laminitol (lD-4C-methyl-myo-inositol) via microbial oxidation of tolnene. Tetrahedron Lett 32 1671-1674. 

Base-catalyzed nitromethane cyclization of the dialdehyde generated by periodate oxidation of 1,2-O-cyclohexylidene-myo-inositol affords the nitrodiol with 1,4/2,3,5-configuration. This is converted into the a-mannosidase inhibitor, mannostatin A (Eq. 3.60).98... 

Reaction (a) takes place first, but two reactions, (b) and (c), can then occur simultaneously, to give different products. Reaction (b) seems to predominate, although (c) does take place. A stepwise reaction has also been observed in the periodate oxidation of mi/o-inositol.41 60 62... 

Similar instances, in which analytical data were of prime importance and where no products were isolated, are the oxidations of various di-D-fructose dianhydrides,80 inositols,81 the trisaccharide moiety of the alkaloid solamargine,82 2-O-a-L-fucopyranosyl-L-fucitol derived from fucoidin83 (a polysaccharide sulfate ester), trehalose and neotrehalose,84 maltotetraose,85 D-galactopyranosyl-glyceritol,86 and a 3-pentulose.87... 

The characteristics of the four major classes of histamine receptors are summarized. Question marks indicate suggestions from the literature that have not been confirmed. AA, arachidonic acid DAG, diacylglycerol Iko,2+, calcium-activated potassium current IP3, inositol 1,4,5-trisphosphate NHE, sodium-proton exchange, PKC, protein kinase C NO, nitric oxide PTPLC, phosphoinositide-specific phospholipase C TXA2, thromboxane A2. Has brain-penetrating characteristics after systemic administration. 

Different preparative procedures have been shown to yield protein fractions which are able to catalyze different types of reactions with respect to their requirement of either NAD or NADP as coenzymes [cf. Eqs. (19), (20), and (21)]. In sera of mice poisoned by carbon tetrachloride we found polyol dehydrogenases catalyzing the oxidation of the following polyols (a) with NAD sorbitol, ribitol, mannitol (b) with NADP sorbitol, ribitol. Erythritol and mt/o-inositol were not attacked at all. Figures 8 and 9 show the results of these determinations performed at pH 9.6. In the NAD system sorbitol and ribitol are oxidized at exactly the same rate, while in the NADP system ribitol does not reach the rate of sorbitol. The ratio NAD NADP for sorbitol is calculated to be 4.20 and for ribitol 5.50. Mannitol is oxidized at 23% of the rate of sorbitol. 

When cyanide blocks oxidative metabolism in mitochondria, cells shift their metabolism and enhanced glucose utilization occurs. One consequence of this altered metabolic pattern is accumulation of nicotinamide adenine dinucleotide (NADH). NADH is a powerful stimulant of calcium mobilization from cell stores through "inositol triphosphate receptors." Elevated calcium damages cells. Increase in cellular NADH, therefore, is an important event in the toxic action of cyanide (Kaplin et al. 1996). 

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